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Antiviral drugs are currently unavailable for infections and diseases caused by dengue virus (DENV) and other emerging flaviruses, including West Nile virus (WNV), Japanese encephalitis virus (JEV) and yellow fever virus.

Central hypothesis

The highly conserved residues in the stem region of the E protein play important roles in viral entry and assembly.

Objective

To elucidate the functional roles of highly conserved residues in the stem region of the E protein in the replication cycle of DENV and other re-emerging flaviviruses (WNV and JEV), and to identify potential targets for the development of antiviral compounds against these medically important mosquito-borne viruses.

Specific Aim 1

Investigate the role of highly conserved residues in the stem region of the E protein on the entry and assembly of DENV serotype 4 (DENV4).

Hypothesis: Highly conserved residues in the stem are involved in entry and assembly.

Rationale: Mutational studies of TBEV E protein suggest the stem is involved in the assembly of VLPs. Peptide derived from the stem can block entry of DENV. Highly conserved residues at the stem are likely to be involved in such processes.

Experimental Plan: Site-directed mutagenesis will be carried out to replace the highly conserved stem residues in DENV4 prM/E expressing construct. Assembly will be assessed by examining VLPs production, and incorporation into VLPs containing replicon (VLPs-R). Entry will be examined by infectivity assays of VLPs-R and DENV4 infectious clone containing E mutations.

Specific Aim 2

Investigate the mechanisms of impairment in entry and assembly of DENV4 E mutants.

Hypothesis: Highly conserved residues in the stem are involved in the entry by affecting post-receptor binding step, or in the assembly by affecting prM-E heterodimerization or intracellular localization.